RU2000393C1 - Apparatus for extraction of water from air - Google Patents

Abstract

Usage: field of water supply, in particular a device for receiving water from air. SUMMARY OF THE INVENTION: A device for receiving water from air is provided with screw-shaped ducts and a chiller with heating elements located in a vertical channel, cooling elements and a drive. The vertical channel is made with an expanded part in which screw-shaped air ducts and cooling elements are installed with the possibility of providing air movement from top to bottom. In the vertical channel is installed the working body of a wind turbine connected to the drive of the refrigeration machine. 1 s.p. f-ly, 1 ill.

Description

The invention relates to the field of water supply, in particular to means for extracting water.

The urgent need for water in all sectors of human vital activity compels the transfer of water resources, desalination of sea water, and other costly measures (1).

The extraction of water from air is known, the advantage of which is the possibility of widespread use 2.

However, this device has a low productivity of 1 liter per day.

In (3), an attempt was made to increase the productivity of devices according to (2) due to the internal energy of air. However, the reliable implementation of devices according to (3) requires a number of specific conditions.

The aim of the invention is to increase the productivity of the installation and the possibility of widespread use.

This goal is achieved by the fact that heating and cooling elements of the chiller are installed in the channel, and the cooling elements are located in the expanded part of the channel with air movement from top to bottom due to traction along the screw-shaped ducts.

The drawing shows the proposed device.

The vertical channel 1 is made in the form of a pipe made of metal or other material mounted on supports 2 above the tank 3. In the lower part of the channel 1, a heating element 4 is installed that is thermally insulated with water

about

is removed from the walls of the pipe, and in the upper part there are cooling elements 5, the wall of which from the side of the cavity of channel 1 is formed by telescopic rings having bevels in the lower part, due to which water does not fall from one ring to another.

The heater and cooler are interconnected by means of devices 6 (pump, chokes, etc.) that ensure the operation of the installation in the mode of an absorption or other type of refrigerator.

The cooling elements are located in the expanded part 7 of the channel 1 in the form of a screw-shaped duct, which allows to extend the contact time of the air with the cooler and, due to the air flow rate, to remove the heat generated by moisture condensation, while at the same time evaporating part of the condensate {4 , (evaporation of 1% water leads to cooling of its entire volume by b ° C).

To prevent air intake through the drain pipe, the latter is made with a bend (hydraulic shutter).

To provide autonomous power supply in the channel 1, a working body of the wind turbine 8 can be placed, connected to the generator 9.

The device operates as follows.

When the devices 6 of the chiller are functioning, the heating elements 4 heat the air and, as a result, it goes up the channel 1 installed in the supports 2. Cooling elements 5. cool the air to the dew point as it moves along screw-shaped ducts located in the expanded portion 7 of the channel. The movement of air from top to bottom causes condensation to fall into the tank 3, from where the dew flows down the pipe for use.

Guaranteed thrust in channel 1 is ensured by solar heating

Nok channel and other surface structures, a positive balance of heat of the chiller and heat during condensation.

The air flow generated by

rotates the working body of the wind turbine 8. providing a generator 9 drive, supplying a refrigerating machine and mixing the air, which contributes to

cooling.

An elementary energy calculation shows that a 500-watt VEF-500 type refrigerator is capable of cooling every second 25 liters of air at 15 ° C (i.e. to the point

dew at an initial air temperature of 30 ° C). If at the same time 1 g of condensate is also released (75 l per day), then the inventive technology will be several times less energy-intensive than obtaining fresh water

distillation of seawater (currently used on ships). Thus, the invention uses in operating conditions the internal energy of the air, stored in due time due to

Claims (2)

1. A device for producing water from air, containing a vertical channel and A water collector, characterized in that it is equipped with screw-shaped ducts and a refrigerating machine with heating elements located in a vertical channel, with cooling elements and a drive, the vertical channel being made with an expanded part in which screw-shaped ducts and cooling elements of a refrigerating machine with the opportunity providing air movement from top to bottom. 2. The device pop. 1, distinguishing, with that. that in the vertical channel a working body of the wind turbine is installed, connected to the drive of the refrigeration machine. t Y /// G